DE69535255T2 - Hydraulic nut for mounting conical objects - Google Patents

Description

The The invention relates to assembling conically shaped articles. One Example in this area is the mounting of a warehouse on one conical bearing seat. In the process of mounting such objects generates internal stresses, whereby a press fit is achieved. The conical object is stretched, whereas the shaft is compressed. The affected items can include various technical or mechanical components, such as for example gearboxes, bearings etc ..

Even though high internal stresses should lead to a correct interference fit you pay attention to the items not to overload, to prevent creep and the formation of cracks. on the other hand are under consideration the problems of fretting corrosion (corrosion) or stress corrosion also to avoid low voltages.

In In this context, the invention relates in particular to a hydraulic nut for the Use in such a method of mounting a hollow An article having a conically shaped opening, such as a conical ring, on a conical shaft, with a nut housing, the an annular having coaxial cavity, and an annular piston, in the cavity is displaceable.

such Hydraulic nuts are known per se. US-A-3033597 shows a Hydraulic nut according to the preamble of claim 1. According to the invention Measuring devices for measuring the axial displacement of the annular piston in relation to the mother housing made available, as defined in claim 1.

Of the Piston may have a radially outwardly facing flange, which forms the support surface.

Around possible To compensate for alignment errors, more than one, z. B. three, regularly spaced Measuring devices are used, such as dial gauges.

The Hydraulic nut is used for mounting objects by applying a Force of a certain size used. This is to achieve the exact displacement of the objects in relation to each other be so desired to get internal tensions. The disadvantage of this method after The prior art is that there are inaccuracies with it which emanates from the unpredictable friction between the objects.

• – Installieren des hohlen Gegenstands auf der Welle, um so die konisch geformten Oberflächen des Gegenstands und der Welle gegenseitig in Anlage zu bringen,
• – Treiben des hohlen Gegenstands in eine Anfangsposition, um eine Eingangspresspassung zur Verfügung zu stellen,
• – Treiben des hohlen Gegenstands über eine vorbestimmte Wegstrecke von der Anfangsposition in eine Endposition, um eine endgültige Presspassung zu schaffen.

The hydraulic nut is therefore preferably used in a process comprising the following steps:

• Installing the hollow object on the shaft so as to engage the conical shaped surfaces of the article and the shaft,
• Driving the hollow object to an initial position to provide an input press fit;
• - Driving the hollow object over a predetermined distance from the initial position to an end position to provide a final interference fit.

By Drifting the hollow object into its starting position will be all Deviations in shape or surface roughness of the object are compensated which lead to an unpredictable, non-linear behavior. On the Movement from the initial position towards the end position the behavior of the objects is very predictable whereby an accurate mounting is achieved.

In almost all cases a well-defined starting position can be achieved if the hollow object by exercising a predetermined axial force brought into the initial position becomes. For these cases For example, the force required to reach the initial position can be empirical be determined.

One Such method is particularly suitable for mounting the inner, tapered inner surface of a rolling bearing on a shaft. Such a bearing in the unassembled state has a relative great radial internal clearance between the rolling elements on the one hand and the running surfaces on the other hand, and a smaller, radial inner nominal game in the assembled state.

According to the practice In the prior art, the game is usually by means of a Probe checks. One such sensor is between a rolling element and a tread introduced, to determine the game. After sliding on the inner tread on the wave is reduced this game. This procedure is obviously difficult and time consuming, taking into account the fact that the probe is every Time after the inner tread has been postponed shall be. Continuous measurements are not possible because the mounting process must be interrupted every time the Probe is introduced.

In addition, can this process easily overloads to lead, when the inner tread shows as being pushed too far.

Furthermore the space of the bearing between the treads and the rolling elements for inserting the probe not always easily accessible be, especially in a machine environment. Often, when Sliding on the inner tread a hydraulic nut is used, which further reduces the available access.

This Problem is further aggravated if sealed rolling bearings be used. Prevent the seals on both sides together introducing a sensor.

Finally, can you get incorrect measurements if the treads and rollers are not properly centered are.

It it is therefore preferable to use the hydraulic nut in a method which does not have these disadvantages. For this purpose, the hydraulic nut for the Sliding on the inner tread of the initial position to the final position over such a distance applied that the radial inner nominal play is achieved. The Distance between the start position and the end position can be up the base of the chamfer the inner tread and the wave can be calculated exactly.

For all in Question coming rolling bearings can the for the achievement of the initial position required force along with the distance between the initial position and the end position in tabular form to provide a reference guide provide a correct mounting process.

Preferably, the initial position is achieved by applying an axial force that causes a reduction in radial internal clearance of 0.09 × 10 ^-3 × d (d = diameter of the inner race). These forces can be empirically determined and tabulated.

Moreover, the end position of the inner tread is preferably achieved starting from the initial position by displacing the inner tread over a distance, resulting in a reduction of the radial inner clearance by 0.6 × 10 ^-3 × 3 (d = diameter of the inner tread). causes. The distances can be derived from the bevel of the objects and also tabulated.

The Invention will be described below with reference to several embodiments explains which are shown in the figures.

1 shows an overview of the subject matter of the invention.

2 shows a schematic of the method according to the invention.

3 - 6 show four different embodiments of a spherical bearing during the assembly process on the shaft.

1 shows a spherical roller bearing 1 that has both an inner tread 2 , which has a conically shaped inner surface, an outer tread 3 with a spherical tread as well as two rows of rolling elements 4 having.

The spherical rolling bearing 1 is on a cone 5 mounted, which has both a conically shaped area 6 as well as a screw threaded portion 7 having.

A hydraulic nut 8th is on the screw threaded area 7 screwed on. This hydraulic nut 8th has a nut housing 9 on, which has a coaxial, annular cavity 10 has. In the cavity 10 is an annular piston 11 accommodated displaced. With the help of seals 12 is the piston 11 in relation to the cylindrical walls of the cavity 10 sealed.

The cavity 10 is by means of a connection 13 with a hydraulic connection 14 connected, which in turn with a hydraulic pump 15 connected is. The oil can be from the pump 15 by moving up and down a handpiece 16 be pumped. A measuring device 17 indicates the oil pressure.

As in 1 is shown, the piston is located 11 on the inner tread 2 of the spherical bearing 1 at. By pumping oil into the cavity 10 becomes the race 2 on the conically shaped area 6 of the pin 15 postponed.

The piston 11 also has a radially outwardly facing flange 18 on which a measuring pin 19 is applied. This pin forms part of a distance measuring device 20 which is a screw threaded housing 21 has that in a hole 22 screwed into the nut housing 9 is provided. A dial gauge 23 is with the axially movable pin 19 connected to the measurement of the relative axial displacement between the nut housing 9 and the piston 11 to enable. As already mentioned, the in 1 shown used system for carrying out the method according to the invention. For a description of this method is both on 1 as well 2 Referenced.

During the assembly process of the spherical roller bearing 1 on the cone 5 becomes the camp 1 , in particular its inner tread 2 , above the pin 5 pushed until the conically shaped surfaces of the inner tread 2 and the pin 5 abut each other. In this position, there is no or almost no clamping effect. This position of the spherical bearing is in 2 denoted by A (zero position).

Below is the inner tread 2 by pumping oil into the cavity 10 the hydraulic nut 8th brought to the initial position B.

The compressive force required to reach this initial position B can be read from a table in which these values are tabulated for all relevant dimensions of the rolling bearing 1 are summarized. These values have been determined empirically. It has been determined that an initial position corresponding to a particular minor initial fit is achieved when a reduction in the radially inner clearance of the bearing has been achieved by 0.09 × 10 ^-3 × d. These values related to such a reduction of the radial inner clearance have been tabulated.

Once the initial position B has been reached, the inner tread becomes 2 pushed over a distance S _s toward an end position C. The distance S _s can also be read from the table. These distances have been calculated on the basis of the chamfer of the object, in combination with the determination that a reduction of the radial internal clearance of the bearing should be achieved by 0.6 × 10 ^-3 × d mm. With the reference S, the distance between the position in which the bearing is inserted by hand, and the end position has been designated.

The axial pushing distances required to obtain this condition can also be found in a table. It should be noted that the reduction occurs by 0.6 × 10 ^-3 × d mm in moving the inner race from the initial position B to its end position C.

As in 3 and 4 is shown, the method can be used both in cases in which only one sliding surface is available ( 3 and 4 ) as well as in cases where there are two sliding surfaces ( 5 and 6 ).

3 corresponds to the case in 1 ; in 4 is an additional sleeve 24 been provided. This sleeve 24 has a cylindrical bore and is on a cylindrical shaft 25 postponed. The outer surface of the sleeve 24 is partly inclined and partly cylindrical with a screw thread formed around the hydraulic nut 8th to mount on it.

In the case of 5 is the inner tread 2 in a fixed position. The inner tread 2 lies on a ring 26 in turn, on an abutment 27 a wave 28 is applied. The additional sleeve 24 now slides in the direction of the arrow 29 , bringing it to both the inner tread 2 as well as on the wave 28 along slides.

The same situation in which sliding over two surfaces takes place is in 6 shown. Again, a ring slides 30 , which is cylindrical on the inside and is formed obliquely on the outside, between the inner tread 2 and the wave 28 , In the cases of 5 and 6 Of course, a larger force is required to obtain the initial position B. The forces in these situations can also be empirically determined and tabulated.

Claims (2)

Hydraulic nut ( 8th ) for mounting a hollow object with a conically shaped opening, such as a conical ring ( 2 ), on a conical shaft ( 6 ), with a mother housing ( 9 ) having an annular coaxial cavity ( 10 ), and an annular piston ( 11 ) located in the cavity ( 10 ), characterized in that means ( 19 . 20 . 21 . 23 ) for measuring the axial displacement of the annular piston ( 11 ) in relation to the mother housing ( 9 ) are provided, wherein the mother housing ( 9 ) an axial bore ( 22 ), in which a measuring device ( 19 . 21 ) is mountable, and the piston ( 11 ) a reference part ( 18 ), that of a sensor ( 19 ) of the measuring device ( 20 ) is detectable, wherein the sensor ( 19 ) an axially displaceable pin ( 19 ), which from the axial bore ( 22 ), the piston ( 11 ) a support surface ( 18 ) on which the pen ( 19 ) and a dial gauge ( 23 ) with the axially movable pin ( 19 ) connected is. Hydraulic nut according to claim 1, in which the piston ( 11 ) a radially outwardly facing flange ( 18 ), which forms the support surface.